Two-loop renormalization of the Faddeev-Popov ghosts in $$ \mathcal{N}=1 $$ supersymmetric gauge theories regularized by higher derivatives

Kazantsev, A. E.; Kuzmichev, M. D.; Meshcheriakov, N. P.; Novgorodtsev, S. V.; Shirokov, I. E.; Skoptsov, M. B.; Stepanyantz, K. V.

doi:10.1007/jhep06(2018)020

Cited by 22 publications

(16 citation statements)

References 59 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Another calculation made in Ref. [69] explicitly demonstrates that the renormalization group equations are satisfied only if this nonlinear renormalization is taken into account. That is why constructing the generating functional one should replace the gauge superfield V by a nonlinear function…”

Section: The Higher Covariant Derivative Regularization For N = 1 Symmentioning

confidence: 99%

See 1 more Smart Citation

Three-loop contribution of the Faddeev–Popov ghosts to the $$\beta $$-function of $$\mathcal{N}=1$$ supersymmetric gauge theories and the NSVZ relation

et al. 2019

Self Cite

View full text Add to dashboard Cite

We find the three-loop contribution to the βfunction of N = 1 supersymmetric gauge theories regularized by higher covariant derivatives produced by the supergraphs containing loops of the Faddeev-Popov ghosts. This is done using a recently proposed algorithm, which essentially simplifies such multiloop calculations. The result is presented in the form of an integral of double total derivatives in the momentum space. The considered contribution to the β-function is compared with the two-loop anomalous dimension of the Faddeev-Popov ghosts. This allows verifying the validity of the NSVZ equation written as a relation between the β-function and the anomalous dimensions of the quantum superfields. It is demonstrated that in the considered approximation the NSVZ equation is satisfied for the renormalization group functions defined in terms of the bare couplings. The necessity of the nonlinear renormalization for the quantum gauge superfield is also confirmed.

show abstract

Section: The Higher Covariant Derivative Regularization For N = 1 Symmentioning

confidence: 99%

“…Then, we extract terms which correspond to the cuts of internal ghost lines and compare them with the two-loop ghost anomalous dimension calculated in Ref. [69].…”

Section: Introductionmentioning

confidence: 99%

Three-loop contribution of the Faddeev–Popov ghosts to the $$\beta $$-function of $$\mathcal{N}=1$$ supersymmetric gauge theories and the NSVZ relation

et al. 2019

Self Cite

View full text Add to dashboard Cite

show abstract

“…For example, for N = 1 supersymmetric gauge theories in the one-loop approximation ghosts are not renormalized in the Feynman gauge, while divergences appear for ξ = 1 [35]. For calculations in higher orders, the knowledge of gauge dependence in the lower-order approximations is also essential, see, e.g., [36]. These are the reasons why a vast literature is devoted to calculations in non-minimal gauges.…”

Section: Introductionmentioning

confidence: 99%

Gauge dependence of the one-loop divergences in 6D, N=(1,0) abelian theory

Buchbinder

Ivanov²,

Мерзликин

et al. 2018

Nuclear Physics B

Self Cite

View full text Add to dashboard Cite

We study the gauge dependence of the one-loop effective action for the abelian 6D, N = (1, 0) supersymmetric gauge theory formulated in harmonic superspace. We introduce the superfield ξ-gauge, construct the corresponding gauge superfield propagator, and calculate the one-loop two-and three-point Green functions with two external hypermultiplet legs. We demonstrate that in the general ξ-gauge the two-point Green function of the hypermultiplet is divergent, as opposed to the Feynman gauge ξ = 1. The three-point Green function with two external hypermultiplet legs and one leg of the gauge superfield is also divergent. We verified that the Green functions considered satisfy the Ward identity formulated in N = (1, 0) harmonic superspace and that their gauge dependence vanishes on shell. Using the result for the two-and three-point Green functions and arguments based on the gauge invariance, we present the complete divergent part of the one-loop effective action in the

show abstract

“…However, a nontrivial check can be obtain only by comparing the two-loop ghost anomalous dimension and the three-loop β-function, because only stating from this approximation the scheme dependence becomes essential. The two-loop anomalous dimension of the Faddeev-Popov ghosts has been calculated in [46]. Making this calculation it is very important to take into account that the quantum gauge superfield is renormalized in a non-linear way [32,33].…”

Section: Two-loop Anomalous Dimension Of the Faddeev-popov Ghostsmentioning

confidence: 99%

“…This equation should be taken into account together with the one-loop renormalization of the coupling constant and of the gauge parameter. Then the Faddeev-Popov ghost anomalous dimension defined in terms of the bare couplings for the higher derivative regulators R(x) = K(x) = 1 + x m ; F(x) = 1 + x n is given by the scheme-independent expression [46] γ where a ≡ M/Λ; a ϕ ≡ M ϕ /Λ are ratios of the Pauli-Villars masses to the parameter Λ. Note that writing Eq.…”

Section: Two-loop Anomalous Dimension Of the Faddeev-popov Ghostsmentioning

confidence: 99%

Supersymmetry, quantum corrections, and the higher derivative regularization

Stepanyantz

2018

EPJ Web Conf.

View full text Add to dashboard Cite

We investigate the structure of quantum corrections in N = 1 supersymmetric theories using the higher covariant derivative method for regularization. In particular, we discuss the non-renormalization theorem for the triple gauge-ghost vertices and its connection with the exact NSVZ β-function. Namely, using the finiteness of the triple gauge-ghost vertices we rewrite the NSVZ equation in a form of a relation between the β-function and the anomalous dimensions of the quantum gauge superfield, of the Faddeev-Popov ghosts, and of the matter superfields. We argue that it is this form that follows from the perturbative calculations, and give a simple prescription how to construct the NSVZ scheme in the non-Abelian case. These statements are confirmed by an explicit calculation of the three-loop contributions to the β-function containing Yukawa couplings. Moreover, we calculate the two-loop anomalous dimension of the ghost superfields and demonstrate that for doing this calculation it is very important that the quantum gauge superfield is renormalized non-linearly.

show abstract

Two-loop renormalization of the Faddeev-Popov ghosts in $$ \mathcal{N}=1 $$ supersymmetric gauge theories regularized by higher derivatives

Cited by 22 publications

References 59 publications

Three-loop contribution of the Faddeev–Popov ghosts to the $$\beta $$-function of $$\mathcal{N}=1$$ supersymmetric gauge theories and the NSVZ relation

Three-loop contribution of the Faddeev–Popov ghosts to the $$\beta $$-function of $$\mathcal{N}=1$$ supersymmetric gauge theories and the NSVZ relation

Gauge dependence of the one-loop divergences in 6D, N=(1,0) abelian theory

Supersymmetry, quantum corrections, and the higher derivative regularization

Contact Info

Product

Resources

About